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Physiological Reviews, Vol. 79, No. 4, October 1999, pp. 1317-1372
Copyright ©1999 by the American Physiological Society
Department of Applied Physiology, University of Ulm, Ulm, Germany
Lehmann-Horn, Frank and
Karin Jurkat-Rott.
Voltage-Gated Ion Channels and Hereditary Disease. J. Neurophysiol. 79: 1317-1372, 1999. By the introduction of technological advancement in
methods of structural analysis, electronics, and recombinant DNA
techniques, research in physiology has become molecular. Additionally,
focus of interest has been moving away from classical physiology to become increasingly centered on mechanisms of disease. A wonderful example for this development, as evident by this review, is the field
of ion channel research which would not be nearly as advanced had it
not been for human diseases to clarify. It is for this reason that
structure-function relationships and ion channel electrophysiology cannot be separated from the genetic and clinical description of ion
channelopathies. Unique among reviews of this topic is that all known
human hereditary diseases of voltage-gated ion channels are described
covering various fields of medicine such as neurology (nocturnal
frontal lobe epilepsy, benign neonatal convulsions, episodic ataxia,
hemiplegic migraine, deafness, stationary night blindness), nephrology
(X-linked recessive nephrolithiasis, Bartter), myology (hypokalemic and
hyperkalemic periodic paralysis, myotonia congenita, paramyotonia,
malignant hyperthermia), cardiology (LQT syndrome), and interesting
parallels in mechanisms of disease emphasized. Likewise, all types of
voltage-gated ion channels for cations (sodium, calcium, and potassium
channels) and anions (chloride channels) are described together with
all knowledge about pharmacology, structure, expression, isoforms, and
encoding genes.
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H. Lerche, Y. G. Weber, H. Baier, K. Jurkat-Rott, O. Kraus de Camargo, A. C. Ludolph, H. Bode, and F. Lehmann-Horn Generalized epilepsy with febrile seizures plus: Further heterogeneity in a large family Neurology, October 9, 2001; 57(7): 1191 - 1198. [Abstract] [Full Text] [PDF]
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D. Sternberg, T. Maisonobe, K. Jurkat-Rott, S. Nicole, E. Launay, D. Chauveau, N. Tabti, F. Lehmann-Horn, B. Hainque, and B. Fontaine Hypokalaemic periodic paralysis type 2 caused by mutations at codon 672 in the muscle sodium channel gene SCN4A Brain, June 1, 2001; 124(6): 1091 - 1099. [Abstract] [Full Text] [PDF]
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D Ursu, S Sebille, B Dietze, D Freise, V Flockerzi, and W Melzer Excitation-contraction coupling in skeletal muscle of a mouse lacking the dihydropyridine receptor subunit {gamma}1 J. Physiol., June 1, 2001; 533(2): 367 - 377. [Abstract] [Full Text] [PDF]
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T. Sugawara, Y. Tsurubuchi, K. L. Agarwala, M. Ito, G. Fukuma, E. Mazaki-Miyazaki, H. Nagafuji, M. Noda, K. Imoto, K. Wada, et al. A missense mutation of the Na+ channel alpha II subunit gene Nav1.2 in a patient with febrile and afebrile seizures causes channel dysfunction PNAS, May 22, 2001; 98(11): 6384 - 6389. [Abstract] [Full Text] [PDF]
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F.-F. Wu, M.P. Takahashi, E. Pegoraro, C. Angelini, P. Colleselli, S.C. Cannon, and E.P. Hoffman A new mutation in a family with cold-aggravated myotonia disrupts Na+ channel inactivation Neurology, April 10, 2001; 56(7): 878 - 884. [Abstract] [Full Text] [PDF]
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A. K Alekov, M. M. Rahman, N. Mitrovic, F. Lehmann-Horn, and H. Lerche A sodium channel mutation causing epilepsy in man exhibits subtle defects in fast inactivation and activation in vitro J. Physiol., December 15, 2000; 529(3): 533 - 539. [Abstract] [Full Text] [PDF]
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R. L. Ruff Skeletal muscle sodium current is reduced in hypokalemic periodic paralysis PNAS, August 17, 2000; (2000) 170293197. [Full Text]
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K. Jurkat-Rott, N. Mitrovic, C. Hang, A. Kouzmenkine, P. Iaizzo, J. Herzog, H. Lerche, S. Nicole, J. Vale-Santos, D. Chauveau, et al. Voltage-sensor sodium channel mutations cause hypokalemic periodic paralysis type 2 by enhanced inactivation and reduced current PNAS, August 15, 2000; 97(17): 9549 - 9554. [Abstract] [Full Text] [PDF]
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N. Mitrovic, A. L. George Jr., and R. Horn Role of Domain 4 in Sodium Channel Slow Inactivation J. Gen. Physiol., June 1, 2000; 115(6): 707 - 718. [Abstract] [Full Text] [PDF]
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B. Gao, Y. Sekido, A. Maximov, M. Saad, E. Forgacs, F. Latif, M. H. Wei, M. Lerman, J.-H. Lee, E. Perez-Reyes, et al. Functional Properties of a New Voltage-dependent Calcium Channel alpha 2delta Auxiliary Subunit Gene (CACNA2D2) J. Biol. Chem., April 14, 2000; 275(16): 12237 - 12242. [Abstract] [Full Text] [PDF]
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B. Fontaine and N. Tabti Unravelling the pathophysiology of calcium channel mutations causing neurological disorders Brain, March 1, 2000; 123(3): 423 - 424. [Full Text] [PDF]
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Z. Liu, J. Zhang, M. R. Sharma, P. Li, S. R. W. Chen, and T. Wagenknecht Three-dimensional reconstruction of the recombinant type 3 ryanodine receptor and localization of its amino terminus PNAS, May 22, 2001; 98(11): 6104 - 6109. [Abstract] [Full Text] [PDF]
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R. L. Ruff Skeletal muscle sodium current is reduced in hypokalemic periodic paralysis PNAS, August 29, 2000; 97(18): 9832 - 9833. [Full Text] [PDF]
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M. Mantegazza, F. H. Yu, W. A. Catterall, and T. Scheuer Role of the C-terminal domain in inactivation of brain and cardiac sodium channels PNAS, December 18, 2001; 98(26): 15348 - 15353. [Abstract] [Full Text] [PDF]
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